Add to ORKGAbstract: Optical antennas drastically increase the spontaneous emission rate of a semiconductor LED, yielding 30x improvements in quantum efficiency. Their nanoscale size, high efficiency, and fast emission rate make them good candidates for ultra-low power communication. 1
Using surface plasmon polaritons to accelerate the recombination of charge carriers increases the da...
Abstract: An optical-antenna nanoLED is coupled into an InP waveguide. Optical emission measurements...
We devise new optical antennas that reduce the excited-state radiative lifetimes of emitters to the ...
Spontaneous Emission Rate Enhancement Using Optical Antennasby Nikhil KumarDoctor of Philosophy in E...
Optical antennas can be used to dramatically increase the rate that semiconductors spontaneously emi...
Traditional semiconductor light emitting diodes (LEDs) have low modulation speed because of long spo...
Since the invention of the laser, stimulated emission has been the de facto king of optical communic...
Atoms and molecules are too small to act as efficient antennas for their own emission wavelengths. B...
In high-speed wireless communication, visible light communication is considered an emerging and cutt...
Radio antennas have long been used to increase the amount of radiated power and modify the emission ...
Nanoscale light sources are being intensively investigated for their potential to enable low-energy,...
We report on a new class of optical antennas that shorten the excited-state lifetime of optical emit...
We report on a new class of optical antennas that shorten the excited-state lifetime of optical emit...
Visible light communication (VLC) is a versatile enabling technology for following high-speed wirele...
A photon interacts efficiently with an atom when its frequency corresponds exactly to the energy bet...
Using surface plasmon polaritons to accelerate the recombination of charge carriers increases the da...
Abstract: An optical-antenna nanoLED is coupled into an InP waveguide. Optical emission measurements...
We devise new optical antennas that reduce the excited-state radiative lifetimes of emitters to the ...
Spontaneous Emission Rate Enhancement Using Optical Antennasby Nikhil KumarDoctor of Philosophy in E...
Optical antennas can be used to dramatically increase the rate that semiconductors spontaneously emi...
Traditional semiconductor light emitting diodes (LEDs) have low modulation speed because of long spo...
Since the invention of the laser, stimulated emission has been the de facto king of optical communic...
Atoms and molecules are too small to act as efficient antennas for their own emission wavelengths. B...
In high-speed wireless communication, visible light communication is considered an emerging and cutt...
Radio antennas have long been used to increase the amount of radiated power and modify the emission ...
Nanoscale light sources are being intensively investigated for their potential to enable low-energy,...
We report on a new class of optical antennas that shorten the excited-state lifetime of optical emit...
We report on a new class of optical antennas that shorten the excited-state lifetime of optical emit...
Visible light communication (VLC) is a versatile enabling technology for following high-speed wirele...
A photon interacts efficiently with an atom when its frequency corresponds exactly to the energy bet...
Using surface plasmon polaritons to accelerate the recombination of charge carriers increases the da...
Abstract: An optical-antenna nanoLED is coupled into an InP waveguide. Optical emission measurements...
We devise new optical antennas that reduce the excited-state radiative lifetimes of emitters to the ...